Let `arg(z_(k))=((2k+1)pi)/(n)` where `k=1,2,………n`. If `arg(z_(1),z_(2),z_(3),………….z_(n))=pi`, then `n` must be of form `(m in z)`

If arg (z_(1)z_(2))=0 and |z_(1)|=|z_(2)|=1 , then

If z_(1),z_(2),z_(3),…………..,z_(n) are n nth roots of unity, then for k=1,2,,………,n

If |z_(1)|=|z_(2)| and arg (z_(1)//z_(2))=pi, then find the of z_(1)z_(2).

If |z_(1)|=|z_(2)| and arg (z_(1))+"arg"(z_(2))=0 , then

Let z_(k)=cos(2kpi)/10+isin(2kpi)/10,k=1,2,………..,9 . Then, 1/10{|1-z_(1)||1-z_(2)|……|1-z_(9)|} equals

If z_(1),z_(2),z_(3)………….z_(n) are in G.P with first term as unity such that z_(1)+z_(2)+z_(3)+…+z_(n)=0 . Now if z_(1),z_(2),z_(3)……..z_(n) represents the vertices of n -polygon, then the distance between incentre and circumcentre of the polygon is

If arg (z^(1//2))=(1)/(2)arg(z^(2)+barzz^(1//3)), find the value of |z|.

If arg(z_(1))=(2pi)/3 and arg(z_(2))=pi/2 , then find the principal value of arg(z_(1)z_(2)) and also find the quardrant of z_(1)z_(2) .

Let A(z_(1)), B(z_(2)), C(z_(3) and D(z_(4)) be the vertices of a trepezium in an Argand plane such that AB||CD Let |z_(1)-z_(2)|=4, |z_(3),z_(4)|=10 and the diagonals AC and BD intersects at P . It is given that Arg((z_(4)-z_(2))/(z_(3)-z_(1)))=(pi)/2 and Arg((z_(3)-z_(2))/(z_(4)-z_(1)))=(pi)/4 Which of the following option(s) is/are correct?

Let A(z_(1)), B(z_(2)), C(z_(3) and D(z_(4)) be the vertices of a trepezium in an Argand plane such that AB||CD Let |z_(1)-z_(2)|=4, |z_(3),z_(4)|=10 and the diagonals AC and BD intersects at P . It is given that Arg((z_(4)-z_(2))/(z_(3)-z_(1)))=(pi)/2 and Arg((z_(3)-z_(2))/(z_(4)-z_(1)))=(pi)/4 Which of the following option(s) is/are incorrect?